The present invention provides novel antigens of an allergy to a quail egg, methods and kits for diagnosing an allergy to a quail egg, pharmaceutical compositions comprising such an antigen, and quail eggs or processed products of quail egg which are devoid of such an antigen.

The present invention provides novel antigens of an allergy to a quail egg, methods and kits for diagnosing an allergy to a quail egg, pharmaceutical compositions comprising such an antigen, and quail eggs or processed products of quail egg which are devoid of such an antigen.

Provided herein are recombinant animal-free food compositions comprising egg-white proteins such as ovalbumin, ovotransferrin and lysozyme and methods of making such food compositions.

The present disclosure relates to powdered, rehydratable, bacterial cellulose formulations comprising methods of production and uses thereof. In particular the use of the formulation as a colloid stabilizer, foam stabilizer, or as a thickener, as a reinforcer material (as a filler), a dietary fibre, a foodstuff, a cosmetic or pharmaceutical composition, a composite, among others. An aspect of the present subject matter discloses a powdered formulation, comprising bacterial cellulose and an additional component (or third component) selected from the following list: sodium carboxymethyl cellulose, carboxymethyl cellulose, xanthan, methylcellulose, methyl cellulose, hydroxyethyl-cellulose, hydroxyethyl-cellulose, hydroxypropyl methyl cellulose, hydroxypropyl methylcellulose, tylose, glycerol, saccharose, or mixture thereof; wherein the powdered formulation is dispersible in an aqueous media, at 20° C., with low shear mixing.

An eggshell membrane separation system of separating a broken egg into an eggshell and an eggshell membrane (100) including: a pulverizer (10) that pulverizes the broken egg; an alkaline water tank (20) in which alkaline water is synthesized; and a separation tank (30) in which the alkaline water is supplied from the alkaline water tank and the broken egg pulverized by the pulverizer is separated into the eggshell and the eggshell membrane, wherein the alkaline water discharged from the separation tank is returned to the alkaline water tank (20) and reused. The eggshell membrane separation system can improve a separation property of an eggshell and an eggshell membrane and smoothly discharge the eggshell precipitated in the separation tank.

A method is provided for manufacturing edible glitter flakes for use as cake décor. The method prescribes steps for combining egg white with up to three secondary liquid ingredients of food coloring, food flavoring, and sweetener to form a homogeneous liquid mixture, and the mixture is poured into a pan to a depth of a desired thickness of the flakes, without causing substantial denaturation of the egg white. The mixture is dried to solid form, then shredded using a scraping blade to shed the flakes having the desired thickness. Edible dust is mixed throughout and adhered to the flakes to form a homogenous solid mixture having a light-reflecting quality.

Disclosed herein is a composition for producing egg-free simulated egg food products. The composition comprises whey protein, a soy material comprising a lipoxygenase inactivated soy flour and a pH modifying agent effective to alkalinise the composition upon hydration. A simulated egg food product having organoleptic properties similar to those of the egg food product if produced using hen eggs is produced upon hydrating and then cooking the composition.

Provided herein are methods for producing a mung bean protein isolate having high functionality for a broad range of food applications. In some embodiments, the methods for producing the isolate comprise one or more steps selected from: (a) extracting one or more mung bean proteins from a mung bean protein source in an aqueous solution, for example, at a pH between about 6.5-10.0; (b) purifying protein from the extract using at least one of two methods: (i) precipitating protein from the extract at a pH near the isoelectric point of a globulin-rich fraction, for example a pH between about 5.0-6.0; and/or (ii) fractionating and concentrating protein from the extract using filtration such as microfiltration, ultrafiltration or ion-exchange chromatography; and (c) recovering purified protein isolate.

There is a method of separating phosvitin and HDL proteins from an egg yolk composition. The egg yolk composition includes HDL proteins bound to phosvitin. At least a portion of the HDL proteins are hydrolysed to cause the HDL proteins and phosvitin to become unbound and forming a hydrolysed solution comprising hydrolysed HDL, phosvitin and peptides. The hydrolysed HDL is separated from the phosvitin and peptides to form a separated hydrolysed HDL composition and a separated phosvitin and peptide solution. One resulting product is an egg yolk composition formed having at least 20% solids by mass of phosvitin phosphopeptides unbound from HDL. Another resulting product is an egg yolk composition having at least 80% hydrolysed HDL-derived lipopeptide solids by mass.

There is a method of separating phosvitin and HDL proteins from an egg yolk composition. The egg yolk composition includes HDL proteins bound to phosvitin. At least a portion of the HDL proteins are hydrolysed to cause the HDL proteins and phosvitin to become unbound and forming a hydrolysed solution comprising hydrolysed HDL, phosvitin and peptides. The hydrolysed HDL is separated from the phosvitin and peptides to form a separated hydrolysed HDL composition and a separated phosvitin and peptide solution. One resulting product is an egg yolk composition formed having at least 20% solids by mass of phosvitin phosphopeptides unbound from HDL. Another resulting product is an egg yolk composition having at least 80% hydrolysed HDL-derived lipopeptide solids by mass.